Maritime Fuel Cell Generator Project
Lennie Klebanoff
Sandia National Laboratories
April 30, 2019 Photo property of Sandia National Laboratories
Project ID #ta009 This presentation does not contain any proprietary, confidential, or otherwise restricted information
Sandia National Laboratories is a multi-mission laboratory managed by National Technology and Engineering Solutions of Sandia, LLC, a wholly owned subsidiary of Honeywell
International Inc., for the DOE's National Nuclear Security Administration under contract DE-NA0003525 1
We have built and deployed a containerized hydrogen fuel cell generator for reefer power on land and sea.
Photo by Sandia
Photo by Sandia
Photo by author
Project Concept
Fuel cell unit replaces diesel generators, reducing fuel cost and emissions.
Project Scope (2013-present)
Design, build, and deploy a containerized fuel cell system to supply portable power for refrigerated containers (“reefers”).
• 100 kW (net) fuel cell and H2 storage inside a 20-foot container, ~ 4kW B.O.P.
• 9-month deployment on land and over the ocean. (Honolulu-Kahului)
• Strategic set of project partners, encompassing both the H2-fuel cell and maritime communities.
• Upgrade the MarFC, find a post-Hawaii (June 2017) deployment site and re-deploy.
2
Project Overview
Timeline:
• Start: July 2016
• End: December 2019
• 80% complete
Budget:
• Total: $1.429M
– DOE FY16: $258K
– DOE FY17: $279K
– DOE FY19: $150K
– DOT/MARAD* FY17: $211K
– DOT/MARAD* FY18: $329K
– Contractor FY2017: $202K
MT Barriers Addressed:
• A: Inadequate standards
• E: Financing mechanisms (Lack of cost and performance data)
• F: Inadequate user experience
Partners:
• Sandia (project manager)
• Scripps Institution of Oceanography (SIO)
• Hydrogenics (sub w/ cost share)
*DOT/MARAD: US Department of Transportation, Maritime Administration 3
Relevance – Overall Project Objectives
✓ Lower the technology risk of future port fuel cell deployments by providing performance data of H2-PEMFC technology in this environment. (Barrier: E)
✓ Lower the investment risk by providing a validated economic assessment for this and future potential projects. (Barrier: E)
✓ Enable easier permitting and acceptance of H2-FC technology in maritime applications by assisting USCG and ABS develop H2+FC codes and standards. (Barrier: A)
✓ Engage potential adopters/end users of hydrogen fuel cells to enable more widespread acceptance of the technology.
Photo property of Sandia National Laboratories
(Barrier: F) 4
Approach: July 2018 - Present
➢ Engaged with Curtin Maritime (Long Beach, CA) for use of MarFC.
➢ Reviewed compatibility of the Curtin Maritime site for H2 refueling
with the Port of Long Beach, Linde, Hydrogenics.
➢ Modify Project Team to Support Deployment at SIO* for Shore Power.
➢ Review SIO site with Air Liquide, Air Products for regs. compliance.
➢ Engage with SIO to Secure Legal Agreement for Deployment.
➢ Upgrade the MarFC generator for 480 VAC operation.
➢ Engaging with H2 suppliers for availability of H2 and quote.
* SIO = Scripps Institution of Oceanography, San Diego CA 5
Accomplishments and Progress:
Approached Curtin Maritime to Assess Interest
Recommended by Christine Houston, Port of Long Beach
Capt. Martin Curtin, owner
Offering a range of services including:
Ocean Towing, Barge Charter Tugboat Charter, Ship Assist, Marine Construction,
Dredging, Crane Service, Environmental Remediation and Restoration, Naval
Fabrication, Offshore Projects
Curtin Maritime was interested in using the MarFC to provide 480 VAC
shoreside power initially for their offices and construction/repair building,
and then if all went well, would consider it for other types of service.
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100 ft
June 26, 2018 First Meeting
July 20 2018: Approval Mtg.
Lennie Klebanoff (Sandia)
Christine Houston (Port of Long Beach)
Martin Curtin (Curtin Maritime)
Boomer Sisneros (Curtin Maritime)
Marley Schroepfer (Curtin Maritime)
Will Cook (Hydrogenics)
Jeff Earl (Linde)
Jim Lohan (Linde)
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Site Requirements for MarFC Deployment
All H2 providers have requirements for refueling or H2 storage that must
satisfy NFPA 2 (Hydrogen Technologies Code), NFPA 55-2016 Compressed
Gases and Cryogenic Fluids Code (2016) and their own requirements.
Considerations Include Distances to:
Lot Lines
Overhead Power Lines
Intakes (HVAC, compressors)
Wall Openings (operable and inoperable)
Other Flammable Gas Storage
Parked Vehicles
Ignition Sources (welding)
Others.........
The current Curtin Maritime site could not accommodate the lot line and
overhead power line distance requirements for this H2 project. 8
The Scripps Institution of Oceanography
Project Team Visited SIO on 8/17/2018
Paul Mauricio, Chief Engineer, SIO
R/V Robert Gordon Sproul docked at Nimitz Marine Facility
1. SIO wants to use the MarFC unit to provide shore power for the Research Vessel (R/V)
Robert Gordon Sproul when in port at the Nimitz Marine Facility, San Diego CA.
2. “The Sproul” is typically in Port for 1 week, goes out for 2-3 days, and then comes back.
3. While in Port, the Sproul requires 480 VAC 3-phase shore power 24 hours per day.
4. Average power ~ 30 kW. During the day, the power can peak to ~ 50 kW, during the
evening, the power load ~ 15 kW. These are within the 100 kW MarFC capability to
provide (once the MarFC unit is upgraded to provide 480 VAC). 9
The SIO Nimitz Marine Facility location
is in full compliance with relevant NFPA
and H2 supplier requirements for H2
storage and delivery.
Also satisfied Scripps terms and
conditions.
Deployment scheduled for 6-15-19
through 12-31-19. 10
MarFC Being Modified to 480 VAC Operation
The old 208 VAC transformer will be
removed, with the new 480 VAC
transformer installed in the same
location within the MarFC shipping
44”
38” 29”
container.
transformer wt. = 1257 lbs 11
MarFC Being Modified to 480 VAC Operation
Old 208 VAC transformer
to be kept at SNL for possible
future use with “reefers.”
All prior 208 VAC
connections to be kept.
12” Waterproof Display of FC Status
Location of new 480 VAC
connection box.
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MarFC Upgrade Schedule and Shipping to SIO
3-21-19
3-28-19
5-1-19
6-1-19
6-15-19
remove unit
from storage,
transfer to
Hydrogenics
Custom
480 VAC
transformer
arrives
from ABB
Complete Upgrade:
1. Remove old
transformer
2. Add junction box
3. Add new
transformer complete
unit
testing
unit
arrives
at SIO Deployment
ends
12-31-19
Final
Report
3-1-20
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Summary
➢ Engaged with Curtin Maritime for use of MarFC.
➢ Reviewed compatibility of the Curtin Maritime site for H2 refueling,
found the current site could not meet H2 regulations.
➢ Identified SIO as a good deployment option.
➢ Reviewed SIO site with Air Products, Air Liquide, found compliance.
➢ Secured legal/insurance agreement with SIO for deployment.
➢ Upgrading the MarFC generator for 480 VAC operation.
➢ Engaging with H2 suppliers for availability of H2 and quotes.
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Responses to Previous Year Reviewers’ Comments “The project team may have overcome or will overcome most barriers but appears utterly stymied by one barrier: location....the project needs a home somewhere.”
--The unit will be deployed at SIO, which satisfies all the regulatory and legal requirements for deployment of the MarFC.
“It would be good to document “lessons learned” for the benefit of the Program and its partners and contractors.”
-- The lessons learned from the project will be documented in the final report. Some of the lessons learned regarding site requirements have been included in this presentation.
“It is unfortunate that this (finding new deployment sites) could not have been done in parallel with the upgrade/test timing.”
-- new potential deployment sites and partners for FY2020 are being sought as the unit is undergoing modification for the SIO deployment.
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Remaining Project Challenges and Barriers
• To find another deployment site after SIO that does not require indemnification and satisfies NFPA 2, NFPA 55 and H2 supplier requirements.
• To find a deployment site that does not require liability insurance beyond the current Sandia limit of $3,000,000.
• Cost of delivered hydrogen is still currently high (> $40/kg).
(“Any proposed future work is subject to change based on funding levels”)
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Proposed Future Work
• More data is needed to complete technical and economic evaluation.
• Sandia, FCTO, and MARAD are actively engaged in identifying a subsequent demonstration project.
• Future evaluations and operating experiences will enable answering the question of whether this technology will be able to compete with incumbent technology in the future, and how.
Photo by Sandia
(“Any proposed future work is subject to change based on funding levels”) 17
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Collaboration and Coordination Thanks to our partners and colleagues:
• Scripps Institution of Oceanography: Bruce Appelgate, Paul Mauricio, Andrea Lupu
• Hydrogenics: Ryan Sookhoo, Nader Zaag, Will Cook
• Air Liquide: Dwight Zuck, Jorge Lopez
• Air Products: Chris Kretz
• Linde: Jeff Earl, James Lohan
• Curtin Maritime: Martin Curtin, Boomer Sisneros, Marley Schroepfer
• Port of Long Beach: Christine Houston
• Sandia National Laboratories: Lennie Klebanoff, Madelynne Farber, Jon Zimmerman
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Thank You!
Photo by author
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Publications and Presentations
• No publications were produced from the work.
• “H2 Maritime Webinar,” Department of Transportation/MARAD, Department of Energy FCTO, California Air Resources Board, California Energy Commission and Bay Area Air Quality Management District Joint Webinar, August 23, 2018.
• “Maritime Fuel Cell Generator Project,” DOE H2 Program Annual Merit Review, Washington D.C., April 30, 2019.
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Critical Assumptions and Issues
1. We need to find a deployment site that does not require indemnification.
SIO satisfies this requirement.
2. Cost of delivered hydrogen is still currently high (> $50/kg), which is a burden on the deployment site.
We are working with the H2 suppliers to provide hydrogen within the existing project funding.
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Data Management Plan (DMP)
• All data will be posted to the Sandia Hydrogen Fuel Cell Maritime public website: maritime.sandia.gov. Data will also be shared by publication when a publication results from the project.
• The data coming from the project, as well as test data during modification of the fuel cell unit will be posted to the public Sandia Hydrogen Fuel Cell Maritime public website: maritime.sandia.gov
• Costs for the data sharing are supplied by Sandia National Laboratories overhead.
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Data Management Plan (DMP)
• All data will be posted to the Sandia Hydrogen Fuel Cell Maritime public website: maritime.sandia.gov. Data will also be shared by publication when a publication results from the project.
• The data coming from the project, as well as test data during modification of the fuel cell unit will be posted to the public Sandia Hydrogen Fuel Cell Maritime public website: maritime.sandia.gov
• Costs for the data sharing are supplied by Sandia National Laboratories overhead.
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